Situated-Cognition Model in Teaching Mathematical Problem Solving Skills and Their Transfer to Other Domains

Abstract

model on the mathematical problem-solving skills of the students and their extent of transfer of these skills to other domains, namely Analytic Geometry, Solid Mensuration and General Chemistry. This study specifically compared the mathematical problem-solving skills and the extent of transfer of these skills to other domains of the students exposed and not exposed to be situated-cognition teaching model. Moreover, the study also investigated if English proficiency moderated the problem-solving skills and extent of transfer of the skills to other domains.

The study used the Non-Equivalent Control Group Design with two intact classes of first-year engineering students enrolled at SLSU in the first and second semesters of the academic year 2007-2008 as the research subjects. A total of 42 hours of instruction called Enrichment Math for each of the two groups, (the experimental-BSME and BSEE and the control-BSCE), was conducted in a regular schedule of the same time slot and room and taught by the researcher herself. The contents considered were problem in Arithmetic, Advanced Algebra and Trigonometry. The instruments used include a Semantic Differential Scale for Content Validation of the pretest/posttest, then the Formative Tests, and interview schedule, 28 situated teaching plans for the experimental group, journals and the problem-solving tests in the other domains.